Energy autonomous electronic skin with direct temperature-pressure perception

Mimicking multiple perceptions of human skin is a basic requirement for artificial intelligence electronic skin (e-skin) perception. Despite significant advances in e-skin for multifunctional sensing, achieving self-powered and truly distinguishing between different stimulus signals still remain cha...

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Bibliographic Details
Published in:Nano energy 2022-07, Vol.98, p.107273, Article 107273
Main Authors: Chen, Yunfeng, Lei, Hao, Gao, Zhenqiu, Liu, Jingya, Zhang, Fangjia, Wen, Zhen, Sun, Xuhui
Format: Article
Language:English
Subjects:
e-skin
Pressure sensor
Self-powered
Temperature sensor
Thermoelectric
Triboelectric
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Summary:Mimicking multiple perceptions of human skin is a basic requirement for artificial intelligence electronic skin (e-skin) perception. Despite significant advances in e-skin for multifunctional sensing, achieving self-powered and truly distinguishing between different stimulus signals still remain challenges. Here, we developed a flexible self-powered temperature-pressure dual functional e-skin (STPES) based on the coupling triboelectric and thermoelectric effects. It can effectively convert temperature and pressure stimuli into two independent voltage signals without signal interference. In addition, the temperature sensing process is powered by natural temperature gradient, with the resolution of 0.5 K and the sensitivity of 220 µV K−1. The self-powered pressure sensor based on triboelectric effect can detect the pressure over a wide range (1 Pa-100 kPa) with the maximum sensitivity of 1.394 V kPa−1. The dual-parameter e-skin attached to the robotic arm is demonstrated to detect the weight and temperature of water cup simultaneously. This work provides a promising prototype for passive multi-parameters e-skin, which has great potential for application in wearable health monitoring systems and artificial intelligence perception. [Display omitted] •A flexible self-powered dual functional electronic skin can simultaneously perceive temperature and pressure stimuli.•It couples triboelectric and thermoelectric effects without any interference.•This work provides a viable alternative for designing and manufacturing self-powered multifunction e-skin.
ISSN:2211-2855
DOI:10.1016/j.nanoen.2022.107273